93 to 0.98 (p &lt; 0.001). The ICC between session 2 and the reference standard was also high, ranging from 0.93 to 0.98 (p &lt; 0.001). Finally, among the four technologists, ICC values between session 1 and session 2 were ≥ 0.96 (p &lt; 0.001).
 
  Radiology technologists can be rapidly trained to calculate leg length discrepancies as accurately as a board-certified pediatric radiologist. Delegation of this time-consuming task to technologists or radiology assistants will permit radiologists to spend time on more demanding studies, such as studies that require subspecialty training.
 Radiology technologists can be rapidly trained to calculate leg length discrepancies as accurately as a board-certified pediatric radiologist. Delegation of this time-consuming task to technologists or radiology assistants will permit radiologists to spend time on more demanding studies, such as studies that require subspecialty training.
  Three-dimensional (3D) printing allows innovative solutions for personal protective equipment, particularly in times of crisis. Our goal was to generate an N95-alternative 3D-printed respirator that passed Occupational Safety and Health Administration (OSHA)-certified quantitative fit testing during the COVID-19 pandemic.
 
  3D printed prototypes for N95 solutions were created based on the design of commercial N95 respirators. Computed tomography imaging was performed on an anthropomorphic head phantom wearing a commercially available N95 respirator and these facial contour data was used in mask prototyping. Prototypes were generated using rigid and flexible polymers. According to OSHA standards, prototypes underwent subsequent quantitative respirator fit testing on volunteers who passed fit tests on commercial N95 respirators.
 
  A total of 10 prototypes were 3D printed using both rigid (n = 5 designs) and flexible materials (n = 5 designs), Prototypes generated with rigid printing materials (n = 5 designs) ask design may provide an alternative to disposable N95 respirators in case of pandemic-related shortages. Furthermore, this approach may allow customization for those that would otherwise fail fit testing on standard commercial respirators.
  Mortality in critically ill COVID (coronavirus disease) patients secondary to pulmonary embolism (PE) has conflicting data. We aim to evaluate the mortality outcomes of critically ill patients with and without PE (WPE).
 
  Three studies were identified after a digital database search on PE in ICU (intensive care unit) patients until September 2020. The primary outcome was mortality. Outcomes were compared using a random method odds ratio and confidence interval of 95%.
 
  A total of 439 patients were included in the study. Diabetes, hypertension, and renal replacement requirement had no statistically significant association between PE and WPE, p=0.39, p=0.23, and p=0.29 respectively. The study revealed that males have higher odds of PE, OR-1.98, 95%CI-1.01-3.89; p=0.05. In-hospital mortality results were comparable between PE and WPE after subgroup analysis and correction of heterogeneity, p=0.25.
 
  PE in critically ill COVID patients had similar in-hospital mortality outcomes as WPE patients. The findings are only hypotheses generated from observational studies and need future randomized, prospective clinical trials for a definitive conclusion.
 PE in critically ill COVID patients had similar in-hospital mortality outcomes as WPE patients. The findings are only hypotheses generated from observational studies and need future randomized, prospective clinical trials for a definitive conclusion.In this work, a simple and green synthetic approach of novel guanine decorated carbon dots (G-CDs) using guanosine 5'-monophosphate and ethylenediamine through a domestic microwave oven was established for the first time. The as-prepared fluorescent G-CDs were characterized by transmission electron microscopy, X-ray photoelectron spectroscopy, UV-vis spectroscopy, and fluorescence spectroscopy. The obtained fluorescent G-CDs with a uniform morphology had desirable functional groups and excellent optical performances. Furthermore, the fluorescence intensity of G-CDs was remarkably quenched by Ag+ than that of other nucleotides-derived CDs. The density functional theory calculations were performed to confirm that the strong interaction of guanine-Ag+ was responsible for the remarkable fluorescence response of G-CDs towards Ag+. In addition, as a label-free fluorescence probe, the G-CDs displayed a good linear detection for highly selective Ag+ sensing over the range of 0-80 μM with the low detection limit of 90 nM. Therefore, the proposed G-CDs had the capacity for Ag+ detection in the real samples.The ball-mill clinoptilolite nanoparticles (CNP) was ion-exchanged in Ni(II) solutions and calcined to obtain NiO-CNP catalysts with various NiO loadings.  https://www.selleckchem.com/products/congo-red.html  The resultant CNP was ion-exchanged in 0.1, 0.2, 0.3, and 0.4 M Ni(II) solutions and then calcined at 450 °C. The resultant NiO-CNPs contained 1.9, 2.3, 3.0, and 3.2% NiO, respectively. The XRD, FTIR, and DRS characterization techniques were applied. By applying the Scherrer equation on the XRD results, the average crystallite size for the NiO-CNP samples was estimated in the range of 42-65 nm. The pHpzc of the NiO-CNP species was slightly changed from 6.8 to 7.6 by an increase in the loaded NiO. The band gap energy of the samples was calculated by applying the Kubelka-Munk equation on the DRS results. The band gap energies of 3.81, 4.05, and 3.63 eV were estimated for the direct electronic transitions of the CN2, CN2.3, and CN3.2 samples, respectively. The boosted photoactivity was obtained in 2,4-dichloroanilyne (DCA) degradation when NiO supported onto both micronized clinoptilolite and its nanoparticles. The effects of the most important experimental variables on DCA photodegradation rate were kinetically studied by applying the Hinshelwood model on the results. The faster rate for the DCA photodegradation was achieved at the optimal conditions, including the catalyst dose 0.5 g/L, CDCA 5 ppm, and the initial pH 3. Some new peaks were observed in the HPLC chromatograms for the photodegraded DCA solutions after 180 min and 300 min, which showed 84% and 95% DCA photodegradation.